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《建筑科学与工程学报》[ISSN:1673-2049/CN:61-1442/TU]

Issue:

2011年03期

Page:

83-87

Research Field:

Publishing date:

2011-09-20

Info

Title:

Effect of Air-bubble Characteristics on Salt Frost Resistance of Concrete

Author(s):

ZHANG Yun-qing¹; 2;  YU Hong-fa²;  WANG Jia-chun³

1. School of Engineering, Nanjing Agricultural University, Nanjing 210031, Jiangsu, China; 2. Department of Civil Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, Jiangsu, China; 3. Department of Architectural Engineering

Keywords:

high performance concrete;  air-entrained Portland concrete;  salt frost resistance;  air-bubble characteristic;  freezing-thawing cycle;  relative dynamic elastic modulus

PACS:

TU528

DOI:

-

Abstract:

The salt frost resistance and air void parameters with ordinary Portland concrete(OPC), air-entrained Portland concrete(APC)and high performance concrete(HPC)subjected to the action of 3.5%(in mass fraction)sodium chloride(NaCl)solution were studied by the accelerated freezing-thawing method. The air-bubble characteristic was examined through scanning electron microscopy(SEM). The results show that the diameter is less than 30 μm, the spacing factor is less than 60 μm, and independent distribution of the sealed air-bubble can significantly improve the salt frost resistance of the OPC with water-binder ratio of 0.50; for C40 of the HPC, the air-bubble structure is a major factor for salt frost resistance; adding air entraining agent to obtain excellent air-bubble structure is the effective means for improving salt frost resistance of concrete. Adding silica fume, water-binder ratio is less than 0.31 for HPC, air-bubble structure characteristic is not a major factor for salt frost resistance, this concrete has higher salt frost resistance, even without adding air-entraining agents.

References:

[1] AITCIN P C.The Durability Characteristics of High Performance Concrete:a Review[J].Cement & Concrete Composites,2003,25(4/5):409-420.
[2]CHATTERJI S.Aspects of Freezing Process in Porous Material-water System—Part 2.Freezing and Properties of Frozen Porous Materials[J].Cement and Concrete Research,1999,29(5):781-784.
[3]毛继泽,齐 辉,鲇田耕一.轻骨料含水率对混凝土吸水性及抗冻性的影响[J].建筑材料学报,2009,12(4):473-477. MAO Ji-ze,QI Hui,AYUTA K.Effects of Water Content in Lightweight Aggregate on Water-absorbing Property and Freeze-thaw Resistance of Concrete[J].Journal of Building Materials,2009,12(4):473-477.
[4]朱蓓蓉,杨全兵,吴学礼,等.SJ-2新型引气剂及其引气混凝土性能[J].混凝土,2001(4):21-24. ZHU Bei-rong,YANG Quan-bing,WU Xue-li,et al.Properties of Concrete with a New Type of Air-entraining Agent(Trandemark SJ-2)[J].Concrete,2001(4):21-24.
[5]李兴翠,邓德华,何富强.混凝土中含气量影响因素的研究[J].低温建筑技术,2008(1):17-19. LI Xing-cui,DENG De-hua,HE Fu-qiang.Study on Factors Influencing Air Content of Air-entrained Concrete[J].Low Temperature Architecture Technology,2008(1):17-19.
[6]ABABNEH A N.The Coupled Effect of Moisture Diffusion,Chloride Penetration and Freezing-thawing on Concrete Durability[D].Denver:University of Colorado,2002.

Memo

Memo:

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Common functions

Last Update: 2011-09-20